Research & Publications

Our team is at the forefront of research in decentralized systems, cryptography, and secure computing. Explore our latest publications and research initiatives.

Introducing Marlin Protocol: Secure Verifiable Computing for Web3

An overview of Marlin Protocol and its approach to secure, verifiable computing for decentralized applications.

Secure Multi-Party Computation in TEEs: Challenges and Opportunities

An exploration of how TEEs can enhance MPC protocols while addressing their limitations.

Optimizing Verifiable Computation for Blockchain Applications

A novel approach to making verifiable computation more efficient for on-chain verification.

Secure State Channels: Scaling Blockchain Interactions

A framework for secure, high-throughput off-chain interactions with strong security guarantees.

Research Areas

Trusted Execution Environments

Exploring novel applications of TEEs for blockchain scaling, privacy, and security. Our research focuses on making TEEs more accessible and useful for decentralized applications.

Zero-Knowledge Proofs

Developing efficient ZK systems for verifiable computation and privacy-preserving applications. We're working on making ZK proofs more practical for real-world use cases.

Decentralized Infrastructure

Designing robust, scalable infrastructure for the next generation of decentralized applications. Our focus is on creating systems that are both secure and performant.

Cross-Chain Interoperability

Researching secure and efficient protocols for cross-chain communication and asset transfers. We're building bridges that maintain security guarantees across different blockchain ecosystems.